Dobbies

ABSTRACT

A dobby in which the reading needles are actuated into reading position of a perforated pattern card by a first system that applies a low value driving force to the needles so that the pattern card is not damaged if a perforation is not sensed by the needles as would be the case if too strong a force were applied to the reading needle. A second driving system operative in a series mode with the first system applies a stronger driving force to the needles in those instances where a perforation in the pattern card is read by the needles.

I United States Patent 1 3,554,238

72 Inventor Ernst Hoenig 7 2,431,597 11/1947 Wiget 139/74 Horgen-Zur'ich, Switzerland 2,856,965 10/1958 Dolbeare et a1. 139/68 [21] Appl. No. 723,527 2,926,703 3/1960 Scheibel et al l39/68X [22] Filed Apr; 23, 1968 3,171,445 3/1965 l-lonegger 139/331 [45] Patented Jan. 12, 1971 FOREIGN PATENTS 73 Assi nee Staubli Ltd. 1 s Zurich Switzerland 461,300 1/1951 Italy 139/68 Priority p 1967 614,839 l/l96l Italy 139/68 Switzerland 1,0 8,665 11/1965 Great Britain 139/331 [31 N 5906/67 Primary Examiner-James Kee Chi Attorneys-Robert E. Burns and Ernmanuel J. Lobato [54] DOBBIES 2 Claims, 9 Drawing Figs.

l39/33l ABSTRACT: A dobby in which the reading needles are actu- [l] Int-Cl D03c l/00, med into reading position f a f t d pattern card by a D039 /00 first system that applies a low value driving force to the nee- [50] Fleld of Search 139/68, 66, dles so that the pattern card is not damaged if a f ti is 74v 71 not sensed by the needles as would be the case if too strong a force were applied to the reading needle. A second driving [56] References Clted system operative in a series mode with the first system applies UNITED STATES PATENTS a stronger driving force to the needles in those instances 2,085,459 6/ l 937 Wiget 139/331 where a perforation in the pattern card is read by the needles.

24 If 24 b 15 27b 2 f6 1 4 3 ..V.I1 Jv-r'1 #vm I? 4 v 5 26a 28 2 I l 13 KQ 7, I: i 201 25 8 P AIENTEU JAN 1 219?! SWEET 1 OF 7 as a as PATENTEU JAN 1 2 I97! SHEET 3 0F 7 PATENTED JAN 1 2:971

SHEET U SF 7 PATENIED JAN 1219?: I 3. 554238 saw 5 BF 7 PATENTEU m 1 21am SHEET 7 [IF 7 DOBBIES I order to prevent heavy wear and tear of the pattern cards, in

particular at the reading points which are not provided with holes, the reading needles must be brought into contact with the pattern cards with as little force as possible. On the other hand, the movement of the heald shafts, which is carried out as quickly as possible, requires great effort which is exerted by specific traction or impact means. The transmission of sensed control commands until the shaftreaches the desired position on the one hand creates the possibility of 'error, and on the other hand requires the exact cooperation of the individual elements, an inclusion of safety periods and additional safety precautions. In addition to this, the many intermediate elements increase the sluggishness of the operating sequence. With every additionally inserted element there'occurs wear and tear at the points. of contact due to absorption of the necessary play and the reciprocal movement of the elements.

The object of the invention is a most direct transmission of the reading action for controlling the heald shafts, and retention of the sensitivity during reading and retention of the strong action'of force at the beginning of the movement of the heald shafts.

A dobby with at least one needle which reads a perforated pattern card is characterized according to the invention by two driving systems which apply force directly and sequentially to the needle or its holder. The first system works with a low force, brings about the reading of the pattern card by means of the needle, and when there is a slight drop of the needle into a perforation of the pattern card, the needle or holder reaches therange of action of the second driving system, which works with greater force. The second system continues insertion of. the needle and drops it deeper into the perforation of the pattern card, the operative movement obtained in this way serving for the direct or indirect control of the movement of the shaft.

Various embodiments of the drawings. ,y I

FIG. 1 is a diagrammatic view of a shaft control mechanism with a baulk and direct exertionof force by the needle holder on the draw-hooks. 1

FIGS. 2-4 are diagrammatic views of a control and actuation mechanism of a draw-hook in a dobby ofthe Hattersley type illustrated in threedifferent positions.

FIG. 5 is a diagrammatic view of a modification of the needle holder'with a pivoted drive.

FIGS. 6 and 7 are diagrammatic views of modifications of the needle holder with a drive which moves in a straight line, in two different Positions.

FIGS. 8 and 9 are diagrammatic views of a further modification of the needle holder with a drive which moves in a straigh line, in two different positions. y

In FIG. 1, in the center of a baulk 1' a jack-lever 2 is attached, which is mounted to rotate on the stationary pivot pin 3, and which by means of a pull member 4 raises the heald shaft, not shown, into the high position, or allows it to sink into the low position in spring retraction machinesrAt each end of the baulk 1 there is attached a pull rod 20, The pins 6 of these pull rods each engage in a slot 7, 7 of the needle holder which carries the reading needle 5.,The needle holder 21. is

invention are shown in the guided by means of a rack 8 and lateralv guides 24. The parts,

holder; A spring 28 presses on the needle holder and is supported on the block 16. Thedobby comprises stationary impact bars 11 for the ends of the baulk 1.

To explain the method of operation of the dobby, a beginning is made at its initial position. as shown in FIG. I for the pull rod 20 and its associated parts. As soon as the cylinder 12 has rotated a perforated pattern card 13 thereon by one perforation, then the double lever 26' begins its swinging movement in a counterclockwise direction. The arm 26a releases a cam 27' so that the needle holder 21 is guidedunder the action of a weak spring 28' with its needle 5' against the pattern card 13 and probes lightly for a perforation. If there is no hole beneath theneedle, then the needle rests on the pattern card. When the double lever 26. swings further,

the arm 26b'-swings past the cam 27', according to a curve A and there is no furthermovement of the needle holder 21. Since there is some clearance B in the slot 7 between the pull rod'20' and the needle holder 21' which corresponds to the movement of the needle holder until the needle engages lightly in a hole, the pull rod is not affected.-

which'have primed reference numerals are associated with the pull rod 20'. The needle movement-or the movement of the needle holder 21 is brought about by a double lever 26 which swings to and fro on thestationary pivot pin 25, and ismoved by an arm 9, which rolls over a continuously rotating cam23.

The two arms 26a, 26b of the double lever 26. cooperate If there is a hole in the pattern card beneath the needle 5, then the needle holder sinks in further until the base of the slot 7 contacts the pin 6. For further movement of the needle holder, the force of the spring 28 is no longer sufficient. This short additional movement is sufficient, however, to bring the stop face 27b in front of the arm 26b, sothat when the double lever 26 swings further it entrains the cam and also the needle holder as far as the position of the holder 21 shown in FIG. 1.

Due to its movement the needle holder 21 entrains the pull rod and thus controls the heald shaft, not shown, in a known way. At the same time the needle 5 penetrates the cylinder 12,. which has no functional. effect. The return movement of the extended needleholder is again effected positively due to the arm 26a engaging the stop face 27a.'The pull rod 20 follows this return movement under the-action of the shaft spring. Naturally a transverse bar can be arranged in the slot 7 which makes this return movement positive. 1

If for some reason, for example heavy vibration in the loom, the arm 26bentrains the cam 27 and also. the needle holder, without there being a perforation in the pattern card 12 in the range of the needle 5, then the spring 15 arranged in the needle holder 21 provides protection against penetration of the pattern card. The needle rests on thepattern card, which is strong enough to absorb this unique and exceptionalthrust.

In FIGS. 2-4 part of a dobby of the I-Iattersley type is shown diagrammatically. The following parts are shown and some have reference numerals corresponding to similar parts of the embodiment in FIG. 1: An upper draw-hook 30, which is attached to one end of a baulk 1, a rocker arm 2, a bar 11 and a draw-blade 14 which swings to and fro in, an approximately straight line. The control of the position of the-draw hook takes place with respect to the draw-blade of an arrange,- ment according to the invention, as shown, e.g., inFIG. l and as described.

The three most important positions are shown. to give a. better indication of the method of operation: FIG. 2 shows the initial position, in which the drawrhook 30.does. not lie within the range of the draw-blade 14, i.e.,' the reading needle 5 is lifted and has just read the pattern card and ascertained. that;

the heald shaft must remain in the low position andthat-the pattern accordingly has no hole. FIG. 3 shows thereading of a holeinthe pattern card 13 by the reading needle 5 andFIGA shows the situation in which the draw-hook 30 is in contact with the draw-blade 14, so that the latter can. draw the heald. shaft intothe highposition. during its swinging movement.

A needle holder 31 with the reading needle 5 liesinguides 34 so that itcanslideendwise with the rack 8 as a limitfor lateral movement. A compression spring 38, which. is sup: ported on the block 16, serves for exerting the first low-force for reading. As soon as thedouble lever 36, which swingsto and fro atthe pivot point 35, beginsits swingingmovemenhan arm 36a releases a cam37 of the needle holder-31- andthe with two stop faces 27a, 27b of the cam 27 of the needle probing of the pattern card can begin.

If there is no perforation under the needle, then the arm 36b swings past the cam according to a curve A (position according to FIG. 2). A support lever 32 which can swing about a shaft 17 away from a rail 19 against the force of the spring 18, remains unaffected, i.e., it has lifted the draw-hook 30 so that it is not entrained by the blade 14. A rod 33 serves for effecting the swing drive of the double lever.

If there is a hole in the pattern card 13 beneath the needle 5, then the needle penetrates the cylinder 12 under the action of the spring 38, FIG. 3. A stop face 37b of the cam 37 is now in the path of swing of the arm 36b of the double lever, and the latter drives the needle holder positively by means of the cam 37, i.e., the great force of the double lever 36 is exerted on the needle holder. On its movement from from the position according to FIG. 3 to the position according to FIG. 4, the needle holder 31 entrains by means of a rear prolongation 39 the support lever 32 and swings the latter away from the drawhook 30. The draw-blade can now drive the draw-hook during its linear swinging movement and bring the heald shaft into the high position. It is evident from FIG. 3 that the prolongation 39 only comes into contact with the support lever 32 when the needle 5 has penetrated a perforation of the pattern card and the arm 36b can exert its force on the cam 37. Only the force for reading a perforation is required of the spring 38, while the actual drive is exerted by the double lever.

The positive return movement of the holder and therefore the release of the support lever takes place due to the return swing of the double lever 36, the arm 36a acting on the stop face 370.

H0. 5 shows a modification of the needle holder in the initial position with its driving systems. Parts have reference numerals corresponding to those of similar parts in the embodiments described. It shows: the cylinder or drum 12 with the pattern card 13, the reading needle 5, a needle holder 41, guides 44, a rack 8, and a weak compression spring 48, the block 16, a double lever 46 with a pivot point 45 and the arms 46a and 46b and a prolongation 49. The functional operation is the same as in the previously described examples, however two stop faces 47a and 47b are disposed on two earns 47. The arm 460 with the stop face 47a serves for relieving the holder and for the release for reading as well as for the positive return impact of the holder. The arm 46b with the stop face 47b serves for the pushing movement and the connected control movement of the shaft lever.

lnstead of a double lever which swings to and fro, the anus of which describe a circular path as shown in the embodiments of FIGS. l5, the more powerful driving system for the movement of the holder can consist of a bladelike lever which swings to and fro in a straight line. Modifications of this kind are shown in FIGS. 6 and 7 and FlGS. 8 and 9, which each have the same holder in the initial position and the extended position.

The path of movement of the needle holder 51 is determined by guides 54 and 54a and the rack 8. The entire arrangement is completed by the reading needle 5, the compression spring 58 with the block 16 and the cylinder 12 with the pattern car 13. An arrow C indicates the direction of movement in a straight line of a blade 56 having a lower face 56b. As soon as the blade 56 moves in the direction of arrow C, a holder 51 follows under the force of the springs 58. If the reading needle does not find a perforation, then the holder and its needle remain stationary. If the reading needle does find a perforation, then the holder 51 sinks further. The guide 540 tilts the plate bar 57 at the pivot point D, so that a stop face 57b comes to lie in front of the blade 56. On further movement the blade 56 entrains the holder 51 by means of the plate bar 57. Tilting back of the plate bar is not possible in this case, since the guide 54 serves to prevent this. ln order to strengthen the tilting movement of the plate bar, a known-snap action amplifier 53 is arranged, consisting of two cups and a spring. The

tion 59 is used in a known way for the transmission of the movement of the needle holder to the actuating elements of the heald shaft.

Also in the embodiment according to FIGS. 8 and 9 all the essential parts of the arrangement can be ascertained. They are a needle holder 61 with its guides 64 and the rack 8, the reading needle 5, the driving cylinder 12 with the perforated pattern card 13 and a spring 68, which initiates the reading by the needle. When the blade 66 moves in a straight line in the direction of an arrow C, then the needle holder immediately follows due to the action of the spring 68. If the needle 5 rests on the pattern card 13, then the blade 66 carries out its to and fro movement without any effect on the holder and the connected parts. On the other hand if the needle is in front of a perforation then the holder follows the movement of the blade 66. In this way the needle holder 61 carries out a lateral movement of an amount indicated by E with respect to its axis of movement, owing to the offsets 63 of the-lateral guide edges. In the initial position these offsets are near to the guides 64. At the same time as the lateral movement, the holder engages with its notch 67 over the blade 66, so that the latter now positively controls the movement of the holder. A stop face 670 for the return of the holder to the initial position, and a stop face 67b for the extending movement are provided.

Since the principal movement of the needle holder occurs positively, in single-lift dobbies the heald shafts can be directly attached to the holder, i.e., no connection by way of pull rods or draw-hooks and baulk is necessary.

From all the embodiments which have been described it can be seen that first a weak force is exerted on the needle 5, caused by the springs 28, 38, 48, 58 and 68, and only when the needle has ascertained that a perforation is present in the pattern card 13 and when the needle has covered the distance indicated by B, does the greater force undertake the movement of the needle and also the movement of the shaft, by means of a lever 26,36, 46, 56 and 66.

lclaim:

1. A dobby with at least one needle for reading a perforated pattern card comprising, two driving means applying force to the reading needle sequentially, a first one of said means having means to apply a low value force to initiate the reading of the pattern card by the reading needle and initiate entry of said needle into a perforation, and a second means effective to apply force to the reading needle to continue insertion of said needle into a perforation when there is a slight movement of the needle into a perforation of the pattern card, the second driving means having means comprising a positively driven lever mechanism applying a greater force than the force of the first system to move the needle deeper into the perforation of the pattern card, a needle holder, said lever mechanism com prising a double lever having first and second lever arms driven so that it swings to and fro, a cam on the needle holder, the cam and lever arms being so arranged that the first arm, during the movement of the double lever away from the pattern card lifts the needle out and away from the pattern card against the force of the weaker first means, and during its movement toward the pattern card, releases the needle for reading the pattern card, and the second arm entrains the needle or its holder, during its movement towards the pattern card, if the needle has moved slightly into a perforation which has been read, and the cam having a face cooperating with the second arm to allow during this movement the arm to slide past the cam and does not entrain the needle or its holder, if the needle only rests on the pattern card and has not read any perforations.

2. A dobby according to claim 1, including means driving the double lever which swings to and fro. 

1. A dobby with at least one needle for reading a perforated pattern card comprising, two driving means applying force to the reading needle sequentially, a first one of said means having means to apply a low value force to initiate the reading of the pattern card by the reading needle and initiate entry of said needle into a perforation, and a second means effective to apply force to the reading needle to continue insertion of said needle into a perforation when there is a slight movement of the needle into a perforation of the pattern card, the second driving means having means comprising a positively driven lever mechanism applying a greater force than the force of the first system to move the needle deeper into the perforation of the pattern card, a needle holder, said lever mechanism comprising a double lever having first and second lever arms driven so that it swings to and fro, a cam on the needle holder, the cam and lever arms being so arranged that the first arm, during the movement of the double lever away from the pattern card lifts the needle out and away from the pattern card against the force of the weaker first means, and during its movement toward the pattern card, releases the needle for reading the pattern card, and the second arm entrains the needle or its holder, during its movement towards the pattern card, if the needle has moved slightly into a perforation which has been read, and the cam having a face cooperating with the second arm to allow during this movement the arm to slide past the cam and does not entrain the needle or its holder, if the needle only rests on the pattern card and has not read any perforations.
 2. A dobby according to claim 1, including means driving the double lever which swings to and fro. 